Your search keyword '"Liu, Kang"' showing total 3 results

1. The complete chloroplast genome sequence of Pinus bhutanica (Pinaceae) and its phylogenetic implications.

Author

Lv, Shiqi, Chen, Jiao, Li, Bingbing, Fu, Taotao, Song, Mingliang, Zhang, Pengtao, Liu, Kang, Kou, Yixuan, and Wang, Jing

Subjects

WHOLE genome sequencing, CHLOROPLAST DNA, PINE, PINACEAE, WHITE pine, TRANSFER RNA

Abstract

Pinus bhutanica is a critically endangered conifer and occurs only in central Bhutan, northwestern Yunnan and southeastern Xizang in China. In this study, the complete chloroplast genome of Pinus bhutanica was first assembled based on next-generation sequencing. The genome sequence was 116,919 bp in length with an overall GC content of 38.75%. A total of 106 functional genes were detected in the genome, including 72 protein-coding genes (PCGs), 30 transfer RNA (tRNA) genes, and four ribosomal RNA (rRNA) genes. The phylogenetic tree reconstructed by 12 chloroplast genomes revealed that P. bhutanica is most closely related to Pinus wangii in subsection Strobus of Pinus. [ABSTRACT FROM AUTHOR]

Published

2024

2. Existence of a continental-scale river system in eastern Tibet during the late Cretaceous–early Palaeogene.

Author

Zhao, Xudong, Zhang, Huiping, Hetzel, Ralf, Kirby, Eric, Duvall, Alison R., Whipple, Kelin X., Xiong, Jianguo, Li, Yifei, Pang, Jianzhang, Wang, Ying, Wang, Ping, Liu, Kang, Ma, Pengfei, Zhang, Bo, Li, Xuemei, Zhang, Jiawei, and Zhang, Peizhen

Subjects

WATERSHEDS, SEDIMENTARY basins, CENOZOIC Era, URANIUM-lead dating, TOPOGRAPHY

Abstract

The establishment of continental-scale drainage systems on Earth is largely controlled by topography related to plate boundary deformation and buoyant mantle. Drainage patterns of the great rivers in Asia are thought to be highly dynamic during the Cenozoic collision of India and Eurasia, but the drainage pattern and landscape evolution prior to the development of high topography in eastern Tibet remain largely unknown. Here we report the results of petro-stratigraphy, heavy-mineral analysis, and detrital zircon U-Pb dating from late Cretaceous–early Palaeogene sedimentary basin strata along the present-day eastern margin of the Tibetan Plateau. Similarities in the provenance signatures among basins indicate that a continental-scale fluvial system once drained southward into the Neo-Tethyan Ocean. These results challenge existing models of drainage networks that flowed toward the East Asian marginal seas and require revisions to inference of palaeo-topography during the Late Cretaceous. The presence of a continent-scale river may have provided a stable long-term base level which, in turn, facilitated the development of an extensive low-relief landscape that is preserved atop interfluves above the deeply incised canyons of eastern Tibet. This study provides evidence for a continental-scale river system that existed in eastern Tibet before the India-Asia collision. The river system developed an extensive low-relief landscape, which was uplifted and dissected during the late Cenozoic. [ABSTRACT FROM AUTHOR]

Published

2021

3. Growth of the northeastern Tibetan plateau since the Middle Miocene as revealed by syn-tectonic growth strata.

Author

Wu, Xiancan, Long, Weiwang, Li, Zhigang, Wang, Weitao, Yang, Xue, Sun, Chuang, Wu, Lianwen, Dai, Xiangming, Zhang, Yipeng, Liang, Hao, Hui, Gege, Yuan, Zhaode, Su, Zhiyi, Jin, Ruizhi, Liu, Kang, Jing, Hulu, Sun, Wen, and Zhang, Peizhen

Subjects

*THRUST belts (Geology), *MIOCENE Epoch, *SEDIMENTATION & deposition, *LANDFORMS, *ANTICLINES, *FOLDS (Geology)

Abstract

Syn-tectonic deposition of sediments (growth strata) preserves a direct record of mountain building-erosion and basin deformation. When and how these sediments incorporated into forward propagating fold-and-thrust (FTB) belts can shed light on the above processes. Despite many years of research, there is still ongoing debate about the timing and mechanisms of the southern Qaidam fold-and-thrust belt in the northeastern Tibetan Plateau. Here, we provide insight into the deformation of the Qaidam Basin and the broader tectonic processes of the northeastern Tibetan Plateau through detailed analysis of the Dafengshan (DFS), Jiandingshan (JDS) and Heiliangzi (HLZ) anticlines along the southern Qaidam FTB. Identification of the growth strata by Area-Depth analysis and age determination indicate that deformation of the DFS anticline initiated in the mid-Miocene (∼15 Ma), and has successively experienced lateral growth (∼15–8.0 Ma) and uplift (∼8.0 Ma-present). This timeline of deformation coincides with periods of mountain building in the northeastern Tibetan Plateau and might be related to the removal of mantle beneath northern Tibet. The synchronization of growth strata with an increase in sedimentation and exhumation rates reveals the reactivation of the tectonic belt around the basin in the mid-Miocene, creating the current basin-range landform; since ∼8 Ma, compression has expanded rapidly into the interior of the Qaidam Basin, leading to incorporation of basin deposits into the FTB. Geomorphological analyses coupled with 3-D fold modeling demonstrate that the JDS and HLZ-fold train with S-shaped configuration is a coherent fold system developed by lateral growth and linkage of two different fold segments in the context of the N–S directional compression of the plateau. Considering the prevalent S-shaped constructions within the basin and the current seismicity, we propose that the dominant structures in the southwestern Qaidam Basin are a series of thrust faults and folds controlled by the compression component of the East Kunlun Fault, with a limited influence from the Altyn Tagh Fault. [ABSTRACT FROM AUTHOR]

Published

2024